CN219089170U - Dirty type cleaning barrel and cleaning tool of pump - Google Patents

Abstract

The invention discloses a sewage pumping type cleaning barrel and a cleaning tool, wherein the sewage pumping type cleaning barrel comprises a cleaning barrel and at least one sewage pump, the cleaning barrel comprises a containing device and a cleaning device, the cleaning device is kept above the cleaning barrel in a mode that a water adding port, a cleaning port and a sewage port respectively correspond to a clean water cavity, the cleaning cavity and the sewage cavity of the cleaning barrel, the sewage pump is provided with a sewage sucking port and a sewage draining port, the sewage pump is arranged on the cleaning barrel in a mode that the sewage sucking port and the sewage draining port are respectively communicated with the cleaning cavity and the sewage cavity, and the sewage pump is used for pumping sewage in the cleaning cavity into the sewage cavity so as to avoid pollution of clean water by residual sewage.

Description

Dirty type cleaning barrel and cleaning tool of pump

Technical Field

The present invention relates to a cleaning tool, and more particularly to a dirty-pumping cleaning bucket and a cleaning tool.

Background

In recent years, the flat mop is one of the necessary cleaning tools for a plurality of families, is not only convenient for cleaning the ground, but also can be used for cleaning window glass and the like, has large cleaning area and high cleaning efficiency, and is favored by a plurality of consumers. Most flat mops are provided with a cleaning barrel, so that the flat mops can be conveniently cleaned, labor is saved, efficiency is improved, and hands of a user are not required to be washed.

The cleaning barrel suitable for cleaning the flat mop comprises a barrel body and a dirt removing cover, wherein the barrel body is provided with a dirt removing cavity and a water removing cavity which are mutually spaced, the dirt removing cover is provided with a dirt scraping opening and a water removing opening which are mutually spaced, and the dirt removing cover is detachably arranged above the barrel body in a mode that the dirt scraping opening and the water removing opening respectively correspond to the dirt removing cavity and the water removing cavity of the barrel body. In the process of cleaning the flat mop, clean water is contained in the decontamination cavity of the barrel body, the flat mop is inserted into the decontamination cavity of the barrel body from the decontamination opening, the flat mop is repeatedly pulled up and down, and dirt and impurities on the flat mop are scraped into the decontamination cavity. And taking the cleaned flat mop out of the dirt scraping opening of the dirt cleaning cover, inserting the cleaned flat mop into the dehydration cavity from the dehydration opening, extruding the flat mop by the dirt cleaning cover, extruding moisture adsorbed by the flat mop into the dehydration cavity, and further completing cleaning and dehydration operations of the flat mop.

However, the existing cleaning barrel still has a plurality of problems in the use process. Specifically, after the flat mop is immersed in the decontamination cavity, dirt on the flat mop contaminates clear water in the decontamination cavity, and as the number of times of cleaning increases, the water in the decontamination cavity becomes dirty more and more. That is, the water in the decontamination chamber is only clean when the flat mop is first washed. In order to save effort, the cleaning cavity is filled with water for one time to clean the mop for a plurality of times, so that the cleanliness of the flat mop is difficult to ensure, and the flat mop can be ensured to be clean only by frequently replacing the water in the cleaning barrel, so that the operation is tedious and laborious, and the water waste is caused.

Disclosure of Invention

An object of the present invention is to provide a dirty pump type cleaning bucket and a cleaning tool, wherein the dirty pump type cleaning bucket provides a dirty water pump, wherein the dirty water pump can pump the dirty water in a cleaning cavity of the dirty pump type cleaning bucket into a dirty water cavity of the dirty pump type cleaning bucket, so that the clean water which is newly added is prevented from being polluted due to the residual dirty water in the cleaning cavity, the cleanliness of the water in the cleaning cavity is guaranteed, and the cleaning effect of the dirty pump type cleaning bucket for cleaning a mop is improved.

It is another object of the present invention to provide a dirty-pumping type cleaning bucket and cleaning tool, wherein the dirty-pumping type cleaning bucket provides a transparent cleaning visual window, wherein the cleaning visual window corresponds to the cleaning chamber, after the mop leaves the cleaning chamber, whether sewage remains in the cleaning chamber can be seen through the cleaning visual window, if the residual sewage exists in the cleaning chamber, the sewage pump can be started to pump the sewage in the cleaning chamber into the sewage chamber.

It is another object of the present invention to provide a dirty-pumping type cleaning bucket and cleaning tool, wherein the dirty-pumping type cleaning bucket provides a detecting means for detecting movement of the mop, and controlling the dirty water pump to be turned on after detecting that the mop leaves the cleaning chamber, so that the dirty water pump can automatically pump the dirty water in the cleaning chamber into the dirty water chamber without a user operation.

It is another object of the present invention to provide a pump-type cleaning bucket and cleaning tool, wherein the pump-type cleaning bucket provides a water level detecting means for detecting a water level in the cleaning chamber, the water level detecting means starts to detect whether there is residual sewage in the cleaning chamber after the detecting means detects that the mop leaves the cleaning chamber, and the sewage pump is turned on and pumps the sewage in the cleaning chamber into the sewage chamber when the water level detecting means detects the residual sewage in the cleaning chamber.

In accordance with one aspect of the present invention, there is provided a dirty-pumping cleaning bucket for cleaning a mop, the dirty-pumping cleaning bucket comprising:

a cleaning barrel, wherein the cleaning barrel comprises a containing device and a cleaning device, wherein the containing device is provided with a clean water cavity, a cleaning cavity and a sewage cavity, wherein the cleaning device is provided with a water adding port, a cleaning port and a sewage port, and the cleaning device is kept above the cleaning barrel in a mode that the water adding port, the cleaning port and the sewage port respectively correspond to the clean water cavity, the cleaning cavity and the sewage cavity; and

At least one sewage pump, wherein the sewage pump is provided with a sewage suction port and a sewage drain, and the sewage pump is arranged on the cleaning barrel in a mode that the sewage suction port and the sewage drain are respectively communicated with the cleaning cavity and the sewage cavity.

According to one embodiment of the present invention, the holding device includes a holding body having a holding space, a water inlet partition plate and a sewage partition plate, wherein the water inlet partition plate and the sewage partition plate are disposed at intervals in the holding space of the holding body, the clean water chamber is formed between the holding body and the water inlet partition plate, the cleaning chamber is formed between the water inlet partition plate and the sewage partition plate, and the sewage chamber is formed between the holding body and the sewage partition plate, the sewage partition plate has a fitting port formed at a bottom of the sewage partition plate, and the sewage pump is hermetically installed at the fitting port in such a manner that the sewage suction port and the sewage discharge port are respectively communicated with the cleaning chamber and the sewage port.

According to one embodiment of the present invention, the sewage pump includes a pump body, a sewage suction pipe and a sewage discharge pipe, wherein the sewage suction pipe and the sewage discharge pipe are respectively connected to both ends of the pump body, the sewage suction port and the sewage discharge port are respectively formed at the sewage suction pipe and the sewage discharge pipe, the pump body is held at an upper portion of the cleaning tub in such a manner that the sewage suction pipe and the sewage discharge pipe are respectively located at the cleaning chamber and the sewage chamber, and the sewage suction pipe extends from the pump body to a bottom of the cleaning chamber.

According to one embodiment of the invention, the sewage pump further comprises a quick release mechanism, wherein the quick release mechanism comprises a first quick release member and a second quick release member, wherein the first quick release member and the second quick release member are provided to the cleaning bucket and the pump body, respectively, and the first quick release member is detachably mounted to the second quick release member.

According to one embodiment of the invention, the first and second quick release members are connected in a manner selected from: threaded connection, snap connection, magnetic connection, and clearance fit connection.

According to one embodiment of the invention, the dirt-pumping type cleaning barrel further comprises at least one transparent cleaning visual window, wherein the cleaning visual window is arranged on the containing device, and corresponds to the cleaning cavity, and water in the cleaning cavity can be seen through the cleaning visual window.

According to one embodiment of the invention, the dirty-pumping cleaning bucket further comprises a detection device, wherein the detection device is mounted to the cleaning bucket, the detection device is communicatively connected to the dirty water pump, and the detection device controls the dirty water pump to remain on after the detection device detects that the mop in the cleaning chamber has left the cleaning chamber.

According to one embodiment of the present invention, the dirty-pumping type cleaning bucket further comprises a detecting device and a water level detecting device, wherein the detecting device is installed at the cleaning bucket, the water level detecting device is maintained in the cleaning chamber, the water level detecting device is communicatively connected to the detecting device and the dirty water pump, and the dirty water pump is switched to an on state when the detecting device detects that the flat mop leaves the cleaning chamber and the water level detecting device detects that there is residual dirty water in the cleaning chamber.

According to one embodiment of the invention, the dirt-pumping type cleaning barrel further comprises a water inlet control mechanism, wherein the containing device is provided with a water inlet channel, wherein the water inlet channel is formed at the lower part of the containing device, the water inlet control mechanism is movably arranged on the cleaning barrel, the water inlet control mechanism controls the cleaning barrel to be switched between a circulation state and a closed state, the water inlet channel of the cleaning barrel in the circulation state is communicated with the clean water cavity and the cleaning cavity, and the clean water cavity and the cleaning cavity of the cleaning barrel in the closed state are blocked.

According to an embodiment of the present invention, the water inflow control mechanism includes an operation member including an operation member, an extension rod, and a movable valve, the restriction member having a longitudinal fitting chamber and a lateral flow passage communicating with the longitudinal fitting chamber, the operation member and the movable valve being provided at upper and lower ends of the extension rod, respectively, the movable valve having a flow passage, the cleaning device having a holding hole, the restriction member being provided to the housing device in such a manner that the lateral flow passage can be communicated with the water inflow passage, the operation member being held above the cleaning device in such a manner that the extension rod is rotatably mounted to the holding hole, and the movable valve being rotatably held in the longitudinal fitting chamber of the restriction member.

In accordance with one aspect of the present invention, there is provided a cleaning tool comprising:

a mop; and

a pumped dirty cleaning tank, wherein the pumped dirty cleaning tank comprises a cleaning tank and at least one dirty water pump, wherein the cleaning tank comprises a holding device and a cleaning device, wherein the holding device has a clean water chamber, a clean water chamber and a dirty water chamber, wherein the cleaning device has a water inlet, a clean water chamber and a dirty water chamber, wherein the cleaning device is held above the cleaning tank in such a way that the water inlet, the clean water chamber and the dirty water chamber correspond to the clean water chamber, the clean water chamber and the dirty water chamber respectively, wherein the dirty water pump has a dirty water suction port and a dirty water discharge port, the dirty water pump is arranged to the cleaning tank in such a way that the dirty water suction port and the dirty water discharge port are respectively communicated to the clean water chamber and the dirty water chamber, and the mop is accessible from the interface of the cleaning device to the clean water chamber of the cleaning tank.

Drawings

Fig. 1 is a perspective view schematically illustrating a dirt-pumping type cleaning bucket according to a preferred embodiment of the present invention.

Fig. 2 is an exploded view schematically showing the dirt-pumping type cleaning bucket according to the above preferred embodiment of the present invention.

Fig. 3A is a schematic view of an application of the dirt-pumping type cleaning bucket according to the above preferred embodiment of the present invention.

Fig. 3B is a schematic view of an application of the dirt-pumping type cleaning bucket according to the above preferred embodiment of the present invention.

Fig. 3C is a schematic view of an application of the dirt-pumping type cleaning bucket according to the above preferred embodiment of the present invention.

Fig. 4 is an exploded view schematically illustrating the dirt-pumping type cleaning bucket according to another preferred embodiment of the present invention.

Fig. 5 is a schematic view of an application of the dirt-pumping type cleaning bucket according to the above preferred embodiment of the present invention.

Fig. 6 is an exploded view schematically illustrating the dirt-pumping type cleaning bucket according to another preferred embodiment of the present invention.

Fig. 7 is a schematic view of an application of the dirt-pumping type cleaning bucket according to the above preferred embodiment of the present invention.

Fig. 8 is a schematic cross-sectional view of the dirt-pumping type cleaning bucket according to another preferred embodiment of the present invention.

Fig. 9 is a schematic cross-sectional view of the dirt-pumping type cleaning bucket in accordance with another preferred embodiment of the present invention.

Detailed Description

The following description is presented to enable one of ordinary skill in the art to make and use the invention. The preferred embodiments in the following description are by way of example only and other obvious variations will occur to those skilled in the art. The basic principles of the invention defined in the following description may be applied to other embodiments, variations, modifications, equivalents, and other technical solutions without departing from the spirit and scope of the invention.

It will be appreciated by those skilled in the art that in the present disclosure, the terms "longitudinal," "transverse," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," etc. refer to an orientation or positional relationship based on that shown in the drawings, which is merely for convenience of description and to simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore the above terms should not be construed as limiting the present invention.

It will be understood that the terms "a" and "an" should be interpreted as referring to "at least one" or "one or more," i.e., in one embodiment, the number of elements may be one, while in another embodiment, the number of elements may be plural, and the term "a" should not be interpreted as limiting the number.

Referring to fig. 1 to 9 of the drawings, a cleaning tool 1000 according to some preferred embodiments of the present invention will be described in the following description, wherein the cleaning tool 1000 includes a dirty-pump type cleaning bucket 100 and a flat mop 200, wherein the dirty-pump type cleaning bucket 100 has a clean water chamber 101, a clean water chamber 102, a dirty water chamber 103, and a water inlet passage 104 communicating the clean water chamber 101 and the clean water chamber 102, wherein the clean water chamber 101, the clean water chamber 102, and the dirty water chamber 103 are disposed at a distance from each other. The water inlet channel 104 is formed at the lower part of the dirty-pumping type cleaning barrel 100, and after the water inlet channel 104 is communicated with the clean water cavity 101 and the cleaning cavity 102, the clean water in the clean water cavity 101 automatically flows into the cleaning cavity 102. The flat mop 200 may be placed in the cleaning chamber 102 of the dirty-pumping type cleaning bucket 100 for cleaning and decontaminating, and the moisture adsorbed by the flat mop 200 after cleaning may be removed into the dirty water chamber 103. Further, the sewage in the cleaning cavity 102 may be pumped into the sewage cavity 103, so as to prevent the residual sewage in the cleaning cavity 102 from polluting the clean water in the cleaning cavity 102, which is beneficial to guaranteeing the cleanliness of the water in the cleaning cavity 102, and improving the cleaning effect of the pump-dirt type cleaning bucket 100 for cleaning the flat mop.

Specifically, the dirty-pumping type cleaning bucket 100 comprises a cleaning bucket 10 and at least one sewage pump 50, wherein the cleaning bucket 10 comprises a holding device 11 and a cleaning device 12, the cleaning device 12 has a water filling port 1201, a cleaning port 1202 and a sewage port 1203, wherein the water filling port 1201, the cleaning port 1202 and the sewage port 1203 are arranged at intervals, and the cleaning port 1202 is located between the water filling port 1201 and the sewage port 1203. The clean water cavity 101, the cleaning cavity 102, the sewage cavity 103 and the water inlet channel 104 are formed in the holding device 11, and the cleaning cavity 102 is located between the sewage cavity 103 and the clean water cavity 101. The cleaning device 12 is installed above the accommodating device 11 in such a manner that the water filling port 1201, the cleaning port 1202, and the sewage port 1203 correspond to the clean water chamber 101, the cleaning chamber 102, and the sewage chamber 103 of the accommodating device 11, respectively. The sewage pump 50 has a sewage suction port 501 and a sewage drain port 502, and the sewage pump 50 is disposed in the cleaning tank 10 in such a manner that the sewage suction port 501 and the sewage drain port 502 are respectively communicated with the cleaning chamber 102 and the sewage chamber 103. The sewage pump 50 pumps sewage in the cleaning chamber 102 from the sewage suction port 501 and out of the sewage discharge port 502 into the sewage chamber 103.

The mop 200 includes a mop body 210 and a grip 220, wherein the mop body 210 includes a carriage 211 and a cleaning element 212, wherein the cleaning element 212 has a cleaning surface 2120. The decontaminating member 212 is mounted to the carriage 211 with the cleaning surface 2120 facing outwardly. The mop body 210 has the carriage 211 attached to the bottom of the grip bar 220, and the mop 200 cleans a work area such as a floor or window glass such that the cleaning surface 2120 is attached to the work area.

The containing device 11 includes a containing body 111, a water inlet partition 112 and a sewage partition 113, wherein the containing body 111 has a containing space 1101, the water inlet partition 112 and the sewage partition 113 are disposed in the containing space 1101 of the containing body 111 at intervals, the clean water cavity 101 is formed between the inner wall of the containing body 111 and the water inlet partition 112, the cleaning cavity 102 is formed between the inner wall of the containing body 111, the water inlet partition 112 and the sewage partition 113, and the sewage cavity 103 is formed between the inner wall of the containing body 111 and the sewage partition 113. The water inlet passage 104 is formed in the water inlet partition 112. The cleaning device 12 is installed above the accommodating body 111 such that the water filling port 1201, the cleaning port 1202, and the sewage port 1203 correspond to the clean water chamber 101, the cleaning chamber 102, and the sewage chamber 103, respectively.

The water filling port 1201 is communicated with the clean water cavity 101, so that a user can supplement clean water from the water filling port 1201 to the clean water cavity 101 without disassembling the cleaning device 12, and the operation is convenient. The cleaning port 1202 is connected to the cleaning chamber 102, and the mop 200 moves from top to bottom so that the cleaning surface 2120 of the mop body 210 faces the sewage port 1203, and enters the cleaning chamber 102 from the cleaning port 1202, and is immersed in the cleaning chamber 102 to remove dirt. The sewage outlet 1203 is connected to the sewage chamber 103, and after the soaked mop 200 moves from bottom to top, the water absorbed by the mop 200 flows into the sewage chamber 103 from the sewage outlet 1203 under the action of the cleaning device 12.

Specifically, the cleaning device 12 includes a water adding part 121, a cleaning part 122 and a dewatering part 123, wherein the water adding part 121, the cleaning part 122 and the dewatering part 123 are integrally formed. The water adding port 1201, the cleaning port 1202, and the sewage port 1203 are formed in the water adding portion 121, the cleaning portion 122, and the dewatering portion 123, respectively.

The cleaning part 122 includes a holding part 1221 and a scraping part 1222 opposite to the holding part 1221, wherein the scraping part 1222 and the holding part 1221 are integrally formed, and the scraping part 1222 connects the holding part 1221 and the dehydrating part 123. The cleaning port 1202 is formed between the holding portion 1221 and the dirty portion 1222, and the mop 200 may enter the cleaning chamber 102 from the cleaning port 1202 with the cleaning surface 2120 of the mop body 210 facing the dirty portion 1222. Also, the dirt scraping portion 1222 of the cleaning part 122 presses the mop 200 during the process of the mop 200 entering the cleaning chamber 102, and the dirt scraping portion 1222 can scrape off dirt attached to the cleaning surface 2120 of the mop 200.

Preferably, the cleaning opening 1202 of the cleaning portion 122 is "convex" shaped, guiding the user to insert the mop 200 into the cleaning chamber 102 with the cleaning surface 2120 facing the dirt scraping portion 1222. Specifically, the holding portion 1221 includes two carriage holding portions 12211 and a lever holding portion 12212, the lever holding portion 12212 is located between the two carriage holding portions 12211, the two holding portions 12211 extend outward from the lever holding portion 12212, and the cleaning port 1202 in a "convex" shape is formed between the two carriage holding portions, the lever holding portion 12212, and the dirt scraping portion 1222.

Further, the dirty section 1222 is located between the clean port 1202 and the dirty port 1203. The dewatering part 123 includes a drainage part 1231 and a maintaining part 1232, wherein the drainage part 1231 and the maintaining part 1232 are integrally formed, and the sewage outlet 1203 is formed between the drainage part 1231 and the maintaining part 1232. The drainage portion 1231 is located between the scraping portion 1222 and the maintaining portion 1232 of the cleaning portion 122, and the drainage portion 1231 extends from the scraping portion 1222 to the maintaining portion 1232.

Further, the upper surface of the dehydrating part 123 is inclined downward, and the inclined upper surface of the dehydrating part 123 extends from the scraping part 1222 of the cleaning part 122 to the edge of the sewage port 1203. After the dirty liquid and dirty liquid on the mop 200 are scraped off by the dirty liquid scraper 1222 of the cleaning part 122, the scraped dirty liquid and dirty liquid is guided to flow from the inclined surface of the dewatering part 123 to the dirty liquid outlet 1203 of the dewatering part 123, and enters the dirty liquid chamber 103 of the cleaning bucket 10 from the dirty liquid outlet 1203. Preferably, the upper surface of the dehydrating part 123 is a plane inclined downward. Alternatively, the upper surface of the dehydrating part 123 is a curved surface inclined downward.

Specifically, when the mop 200 is first introduced from the cleaning opening 1202 into the cleaning chamber 102 from the top down, the holding part 1221 and the dirty part 1222 of the cleaning part 122 press the mop 200 and scrape off dirt and dirty water on the mop 200, and the scraped-off dirt and dirty water flows along the inclined surface of the dehydrating part 123 to the dirty water chamber 103. The dirty water cavity 103 and the cleaning cavity 102 are independent of each other, so that before the mop main body 210 of the mop 200 contacts with the clean water in the cleaning cavity 102 for the first time, the dirty water and dirty water of the mop main body 210 are scraped once, the cleaning efficiency is improved, the pollution degree to the clean water is reduced, and the water saving is facilitated.

Further, after the mop body 210 of the mop 200 enters the cleaning chamber 102, water in the cleaning chamber 102 is absorbed, and the mop 200 in the cleaning chamber 102 is moved from bottom to top to the bottom of the mop body 210 of the mop 200 to be close to the cleaning opening 1202. Then, the mop 200 is moved from top to bottom, the holding part 1221 of the cleaning part 122 and the dirt scraping part 1222 are pressed again against the mop body 210 of the mop 200, and during the downward movement of the mop body 210, the dirt scraping part 1222 scrapes off the water and dirt adsorbed to the mop body 210, and the scraped water and dirt flows along the inclined surface of the dewatering part 123 to the dewatering opening 123, and is accumulated in the sewage chamber 103.

Preferably, the cleaning bucket 10 further comprises a dirt filtering device 13, wherein the dirt filtering device 13 has a dirt inlet 1301, a containing space 1302, and a filtering port 1303, wherein the containing space 1302 communicates with the dirt inlet 1301 and the filtering port 1303, and the dirt filtering device 13 is held under the dirt scraping portion 1222 of the cleaning portion 122 of the cleaning device 12. The dirt inlet 1301 and the filter outlet 1303 of the dirt filter device 13 are respectively connected to the cleaning chamber 102 and the sewage chamber 103. In the process that the mop main body 210 of the mop 200 enters the cleaning cavity 102, the dirt filtering device 13 presses and scrapes the cleaning surface 2120 of the mop 200, the dirt and impurities absorbed by the cleaning surface 2120 are scraped off by the dirt filtering device 13 and enter the containing space 1302 from the dirt inlet 1301, the dirt enters the dirt cavity 103 from the filtering opening 1303, and the impurities are blocked and then remain in the containing space 1302.

Specifically, the dirt filtering device 13 includes a dirt rubbing plate 131, a dirt accommodating box 132, and a filtering member 133, wherein the dirt rubbing plate 131 and the filtering member 133 are respectively disposed in the dirt accommodating box 132, the filtering member 133 is held in the filtering opening 1303, and the dirt inlet 1301 and the accommodating space 1302 are formed between the dirt rubbing plate 131 and the dirt accommodating box 132. The dirt rubbing plate 131 is held at intervals below the dirt scraping portion 1222 of the cleaning portion 122 in a protruding forward manner, and such that the dirt inlet 1301 is communicated with the cleaning port 1202, and the dirt filter 13 is held above the dirt separator 113. Preferably, the dirt scraping plate is obliquely disposed to the dirt accommodating case 132.

When the mop main body 210 of the mop 200 enters the cleaning chamber 102 from the cleaning opening 1202 from top to bottom, the dirt rubbing plate 131 can squeeze the cleaning surface 2120 of the mop main body 210 and scrape off the dirt and impurities adsorbed by the cleaning surface 2120, the scraped-off dirt and impurities enter the containing space 1302 from the dirt inlet 1301, the filter 133 filters the dirt and impurities in the dirt containing box 132, the filtered dirt and impurities flow into the dirt cavity 103 from the filter opening 1303, and the impurities with larger volume are left in the containing space 1302. For example, but not limited to, the filter 133 is implemented as a filter mesh or the like.

Preferably, the dirt filtering device 13 is detachably mounted below the cleaning device 12, so that the user can clean the sundries in the containing space 1302 by removing the dirt filtering device 13. In a specific embodiment of the invention, the dirt filtration device 13 is retractably mounted to the cleaning device 12. For example, the cleaning device 12 is provided with two sliding rails, the dirt accommodating box 132 of the dirt filtering device 13 is provided with sliding grooves corresponding to the sliding rails, and the dirt accommodating box 132 is detachably mounted on the cleaning device 12 in a manner that the sliding grooves correspond to the sliding rails. Optionally, the dirt filtration device 13 is detachably mounted to the cleaning device 12 by means of a snap fit. Optionally, the dirt filtration device 13 is removably mounted to the cleaning device 12 by means of a threaded connection. Optionally, the dirt filtration device 13 and the cleaning device 12 are integrally formed. It should be understood by those skilled in the art that the specific embodiment of the soil housing device 13 provided to the cleaning device 12 is by way of example only and is not intended to limit the contents or scope of the visual cleaning bucket 100 of the present invention.

In a specific embodiment of the present invention, the sewage pump 50 is mounted on the bottom of the sewage partition 113, and in particular, the bottom of the sewage partition 113 has a fitting 11301, and the sewage pump 50 is sealingly mounted on the fitting 11301 in such a manner that the sewage suction port 501 and the sewage discharge port 502 are respectively communicated with the cleaning chamber 102 and the sewage discharge port 103. The sewage pump 50 is positioned at the bottom of the sewage partition 113, and has the advantages of shortest sewage discharge stroke, high power and low consumption.

In another embodiment of the present invention, the sewage pump 50 includes a pump body 51, a sewage suction pipe 52 and a sewage drain pipe 53, wherein the sewage suction pipe 52 and the sewage drain pipe 53 are respectively connected to both ends of the pump body 51, and the sewage suction port 501 and the sewage drain port 502 are respectively formed at the sewage suction pipe 52 and the sewage drain pipe 53. The pump main body 51 is disposed on the cleaning tank 10 in such a manner that the sewage suction pipe 52 and the sewage discharge pipe 53 are disposed in the cleaning chamber 102 and the sewage chamber 103, respectively, and the sewage suction pipe 52 extends from the pump main body 51 to the bottom of the cleaning chamber 102, so as to ensure that sewage at the bottom of the cleaning chamber 102 can be pumped.

Preferably, the pump body 51 of the sewage pump 50 is mounted to a side portion of the sewage partition 113. For example, the pump body 51 is fixed to the side of the sewage partition 113 by gluing, welding, etc., so as to prevent the sewage pump 50 from being separated from the cleaning bucket 10.

More preferably, the sewage pump 50 is detachably installed at a side or top of the sewage partition 113. Specifically, the sewage pump 50 further includes a quick release mechanism 54, wherein the quick release mechanism 54 includes a first quick release 541 and a second quick release 542, wherein the first quick release 541 and the second quick release 542 are disposed on the sewage partition 113 and the pump body 51, respectively, and the second quick release 542 is detachably mounted to the first quick release 541, such that the sewage pump 50 is detachably mounted to the sewage partition 113. For example and without limitation, the first and second quick release members 541, 542 are removably coupled via a threaded connection, a magnetic attachment connection, a snap-fit connection, a clearance fit, or the like.

Alternatively, the pump body 51 is provided to the cleaning device 12 in such a manner that the suction pipe 52 and the discharge pipe 53 are located in the washing chamber 102 and the sewage chamber 103, respectively. For example, the pump body 51 may be fixed to the inner wall of the cleaning device 12 by gluing, welding, or the like. Alternatively, the pump body 51 is embedded in the inner wall of the cleaning device 12. Alternatively, the pump body 51 is mounted to the cleaning device 12 in such a manner that the second quick release 542 is detachably mounted to the first quick release 541.

Alternatively, the pump body 51 is provided to the dirty filter apparatus 13 in such a manner that the dirty suction pipe 52 and the dirty discharge pipe 53 are located in the clean chamber 102 and the dirty water chamber 103, respectively.

It should be noted that the specific installation position and installation manner of the sewage pump 50 are not limited, and the specific installation position and installation manner of the sewage pump 50 shown in the specification and drawings are only examples and should not be construed as limiting the contents and scope of the soil type cleaning bucket 100 according to the present invention.

In a specific embodiment of the present invention, the dirty-pumping type cleaning tank 100 further includes a water inlet control mechanism 20, wherein the water inlet control mechanism 20 is disposed on the cleaning tank 10, the water inlet control mechanism 20 allows the cleaning tank 10 to be switched between a circulation state and a closed state, the water inlet passage 104 of the cleaning tank 10 in the circulation state is opened, the water inlet passage 104 communicates the clean water chamber 101 and the cleaning chamber 102, and the clean water in the clean water chamber 101 automatically flows into the sewage chamber 103. The water inlet passage 104 of the cleaning bucket 10 in the closed state is closed, the clean water chamber 101 and the cleaning chamber 102 are blocked, and the clean water in the clean water chamber 101 cannot flow into the cleaning chamber 102. The inlet control mechanism 20 may be operated to switch the cleaning bucket 10 from the closed state to the circulation state by operating the sewage pump 50 to pump the sewage in the cleaning chamber 102 in the closed state into the sewage chamber 103. In this way, contamination of the clean water entering the cleaning chamber 102 by residual sewage can be avoided.

Referring to fig. 1 to 7, in some specific embodiments of the present invention, the water inlet control mechanism 20 of the dirty-pumping type cleaning bucket 100 controls the amount of water in the clean water chamber 101 into the clean water chamber 102 by means of manual operation.

Specifically, the water inlet control mechanism 20 includes an operating member 201 and a limiting member 202, wherein the operating member 201 has a flow passage 20131, and the limiting member 202 has a longitudinal assembly chamber 2021 and a transverse flow passage 2022 communicating with the longitudinal assembly chamber 2021. The operation member 201 is movably mounted to the longitudinal assembly chamber 2021 of the spacing member 202, and when the flow channel 20131 of the operation member 201 corresponds to the lateral flow channel 2022 of the spacing member 202, the flow channel 20131 of the operation member 201, the lateral flow channel 2022 of the spacing member 202, the water inlet channel 104, the clean water chamber 101 and the clean water chamber 102 are in communication with each other. The clean water in the clean water chamber 101 flows into the cleaning chamber 102 after passing through the water inlet channel 104, the flow channel 20131 of the control member 201, and the lateral flow channel 2022 of the limiting member 202 in sequence.

In one embodiment of the present invention, the control member 201 includes an operating element 2011, an extension rod 2012 and a movable valve 2013, wherein the operating element 2011 and the movable valve 2013 are disposed at an upper end and a lower end of the extension rod 2012, respectively, and the flow channel 20131 is formed at the movable valve 2013. The cleaning portion 122 of the cleaning device 12 has a holding hole 12201, and the operating member 2011 is held above the cleaning device 12 in such a manner that the extension lever 2012 is rotatably mounted to the holding hole 12201 of the cleaning device 12. The limiting member 202 is disposed on the water inlet partition 112 such that the lateral flow channel 2022 can be connected to the water inlet channel 104, and the movable valve 2013 is rotatably mounted to the longitudinal assembly chamber 2021 of the limiting member 202. The movable valve 2013 is rotatably held within the longitudinal assembly cavity 2021 of the stopper 202 in such a manner that an outer surface thereof is fitted to an inner surface of the stopper 202. When the operating member 2011 is rotated by hand, the cleaning bucket 10 is in the circulating state when the movable valve 2013 is rotated until the circulating passage 20131 corresponds to the lateral circulating passage 2022 of the stopper 202, and the water in the clean water chamber 101 automatically flows into the cleaning chamber 102.

Alternatively, the operating member 2011 is held above the cleaning device 12 in such a manner that the extension pole 2012 is movably mounted up and down to the holding hole 12201 of the cleaning device 12. The movable valve 2013 is movably held up and down in the longitudinal fitting chamber 2021 of the stopper 202 in such a manner that an outer surface thereof is fitted to an inner surface of the stopper 202. And a spring is disposed below the movable valve 2013, so that the cleaning barrel 10 can be switched between the circulation state and the closed state by pressing the operating element 2011.

It should be noted that the specific embodiment of the water inlet control mechanism 20 is merely an example, and the water inlet control mechanism 20 may be implemented as a pedal drive, an electric control drive, or the like to switch the cleaning bucket 10 between the circulation state and the closing device. It should be understood by those skilled in the art that the specific embodiment of the water inlet control mechanism 20 is by way of example only and is not intended to limit the contents or scope of the present invention thresh fox pump-dirty cleaning bucket 100.

In this particular embodiment of the dirty-pumping type cleaning bucket 100 of the present invention, the dirty-pumping type cleaning bucket 100 further comprises a viewing window 30, wherein the viewing window 30 comprises at least one transparent cleaning viewing window 31, wherein the transparent cleaning viewing window 31 corresponds to the cleaning chamber 102 of the cleaning bucket 10, and the amount of water in the cleaning chamber 102 can be observed through the cleaning viewing window 31, so as to avoid excessive or insufficient water in the cleaning chamber 102.

Preferably, the cleaning visual window 31 extends from the lower edge of the cleaning bucket 10 to the upper edge of the cleaning bucket 10. Thus, the user can observe whether there is residual sewage at the bottom of the cleaning chamber 102 after the flat mop 200 leaves the cleaning chamber 102, and turn on the sewage pump 50 to pump the sewage in the cleaning chamber 102 into the sewage chamber 103 when the residual sewage in the cleaning chamber 102 is found.

In a specific embodiment of the present invention, the visual window 30 includes a transparent clean water visual window 32, wherein the transparent clean water visual window 32 corresponds to the clean water cavity 102 of the cleaning bucket 10, and the water amount in the clean water cavity 101 can be observed through the clean water visual window 32, so that a user can supplement clean water into the clean water cavity 101 in time. Preferably, the fresh water viewing window 32 extends from the lower edge of the cleaning bucket 10 to the upper edge of the cleaning bucket 10.

Referring to fig. 1 to 7, in a specific embodiment of the present invention, the viewing window 30 includes a transparent sewage viewing window 33, wherein the transparent sewage viewing window 32 corresponds to the sewage chamber 103 of the cleaning tub 10, and the amount of water in the sewage chamber 103 can be observed through the sewage viewing window 33, so that a user can pour sewage in the sewage chamber 103 in time. Preferably, the sewage visualization window 33 extends from the lower edge of the cleaning bucket 10 to the upper edge of the cleaning bucket 10.

Preferably, the clean visible window 31, the clean water visible window 32 and the sewage visible window 33 are integrally formed, that is, the clean water visible window 32 is connected with the clean visible window 31 and the sewage visible window 33, and the visible window 30 is of an integral structure. For example, the side wall of the cleaning tank 10 is made of transparent material, and the water amounts in the cleaning chamber 102, the clean water chamber 101 and the sewage chamber 103, that is, the side wall of the cleaning tank 10 can be clearly observed as the visible window 30 through the transparent side wall of the cleaning tank 10.

Preferably, the cleaning visual window 31, the clear water visual window 32 and the sewage visual window 33 are disposed at intervals, i.e., the cleaning visual window 31, the clear water visual window 32 and the sewage visual window 33 are independent of each other.

In this particular embodiment of the present invention, the dirty-pumping type cleaning bucket 100 further includes at least one set of graduations 40, wherein the graduations 40 are provided to the cleaning bucket 10, at least one set of the graduations 40 corresponding to the water level in the cleaning chamber 102, and the water level graduations in the cleaning chamber 102 can be observed through the cleaning vision window 31, thereby accurately controlling the water inflow into the cleaning chamber 102. For example, the scale corresponding to the water level in the cleaning chamber 102 may identify words such as "standard water level" and "highest water level", and the user may control the water level entering the cleaning chamber 102 between the "standard water level" and the "highest water level", so as to ensure that the flat mop 200 can be sufficiently cleaned, and avoid water in the cleaning chamber 102 overflowing after the flat mop 200 is placed in the cleaning chamber 102.

Preferably, at least one set of scales 40 corresponds to the water level in the sewage chamber 103, and the water level scale in the sewage chamber 103 can be observed through the sewage visual window 33, so that the sewage water level in the sewage chamber 103 is prevented from overflowing too high to pollute the use area.

Preferably, at least one set of scales 40 corresponds to the water level in the clean water cavity 101, the water level scale in the clean water cavity 101 can be observed through the clean water visual window 32, the water level in the clean water cavity 101 can be conveniently mastered, and when the water level in the clean water cavity 101 is low, a proper amount of clean water can be timely supplemented.

It should be noted that, the scale is disposed on the cleaning tank 10, which is not only beneficial for a user to clearly control the water volume in the clean water cavity 101, the clean water cavity 102 and the sewage cavity 103, to avoid overflow caused by overhigh water level, but also to avoid the phenomenon of toppling caused by serious unbalance of the water volume distribution in the cleaning tank 10.

Referring to fig. 8, the dirty pump type cleaning bucket 100 further includes a detecting means 60, wherein the detecting means 60 is mounted to the cleaning bucket 10, the detecting means 60 is communicatively connected to the dirty water pump 50, and the detecting means 60 controls the dirty water pump 50 to be kept in an on state and pumps the residual dirty water in the cleaning chamber 102 into the dirty water chamber 102 after the detecting means 60 detects that the flat mop 200 in the cleaning chamber 102 exits from the cleaning chamber 102.

Specifically, the detecting device 60 is close to the cleaning opening 1202, and the detecting device 60 is disposed above the cleaning device 12, and the detecting device 60 can detect the movement of the flat mop 200 from top to bottom immediately when the flat mop 200 is close to the upper surface of the cleaning tub 100 and enters the cleaning chamber 102. When the detecting means 60 detects the reverse movement of the flat mop 200, which is moved away from the cleaning chamber 102 from bottom to top, the sewage pump 50 is controllably turned on to pump the residual sewage in the cleaning chamber 102 into the sewage chamber 102. For example, but not limited to, the detection device 60 may be implemented as a laser detector, a microwave detector, or other detection device.

Referring to fig. 9, the dirty-pumping type cleaning tank 100 further includes a water level detecting device 70, wherein the water level detecting device 70 is installed at the bottom of the washing chamber 102, and the water level detecting device 70 is communicably connected to the detecting device 60 and the dirty water pump 50. The water level detecting device 70 is configured to detect a water level in the cleaning chamber 102, and when the detecting device 60 detects that the flat mop 200 leaves the cleaning chamber 102, the water level detecting device 70 starts to detect whether there is residual sewage in the cleaning chamber 102, and when the water level detecting device 70 detects that there is residual sewage in the cleaning chamber 102, the sewage pump 50 is turned on, and the sewage pump 50 in the cleaning chamber 102 is put into the sewage chamber 103. If the water level detection means 70 does not detect the residual sewage in the washing chamber 102, the sewage pump 50 continues to be kept in a closed state. In this way, the power consumption of the sewage pump 50 can be reduced.

The cleaning bucket 10 further includes a handle 14, wherein the handle 14 is rotatably installed at an upper portion of the bucket body 11, and a user can move the visible cleaning bucket 100 by holding the handle 14.

The cleaning tub 10 further includes a drain valve 15, and the holding device 11 further has a drain port 105, wherein the drain port 105 is formed at a lower portion of the holding body 111, and the drain port 105 is communicable with the sewage chamber 103, and the drain valve 15 is installed at the drain port 105, and the drain port 105 can be opened or the drain port 105 can be closed by using the drain valve 15. When the water outlet 105 is opened, the sewage in the sewage chamber 103 can be automatically discharged outside the tub, and the user does not need to empty the sewage by pouring the cleaning tub 10.

It will be appreciated by persons skilled in the art that the above embodiments are examples only, wherein the features of the different embodiments may be combined with each other to obtain an embodiment which is readily apparent from the disclosure of the invention but which is not explicitly indicated in the drawings.

It will be appreciated by persons skilled in the art that the embodiments of the invention described above and shown in the drawings are by way of example only and are not limiting. The objects of the present invention have been fully and effectively achieved. The functional and structural principles of the present invention have been shown and described in the examples and embodiments of the invention may be modified or practiced without departing from the principles described.

Claims (18)

1. A dirty cleaning barrel of pump, is applicable to wasing a mop, its characterized in that, dirty cleaning barrel of pump includes:

a cleaning barrel, wherein the cleaning barrel comprises a containing device and a cleaning device, wherein the containing device is provided with a clean water cavity, a cleaning cavity and a sewage cavity, wherein the cleaning device is provided with a water adding port, a cleaning port and a sewage port, and the cleaning device is kept above the cleaning barrel in a mode that the water adding port, the cleaning port and the sewage port respectively correspond to the clean water cavity, the cleaning cavity and the sewage cavity; and

at least one sewage pump, wherein the sewage pump is provided with a sewage suction port and a sewage drain, and the sewage pump is arranged on the cleaning barrel in a mode that the sewage suction port and the sewage drain are respectively communicated with the cleaning cavity and the sewage cavity.

2. The pump-type cleaning bucket according to claim 1, wherein the accommodating means comprises an accommodating body having an accommodating space, a water inlet partition plate and a sewage partition plate, wherein the water inlet partition plate and the sewage partition plate are disposed at intervals in the accommodating space of the accommodating body, the clean water chamber is formed between the accommodating body and the water inlet partition plate, the cleaning chamber is formed between the water inlet partition plate and the sewage partition plate, and the sewage chamber is formed between the accommodating body and the sewage partition plate, the sewage partition plate has an assembly port formed at a bottom of the sewage partition plate, and the sewage pump is hermetically installed at the assembly port in such a manner that the sewage suction port and the sewage discharge port are respectively communicated with the cleaning chamber and the sewage port.

3. The pump-type cleaning bucket of claim 1, wherein the sewage pump comprises a pump body, a sewage suction pipe and a sewage discharge pipe, wherein the sewage suction pipe and the sewage discharge pipe are respectively communicated with both ends of the pump body, the sewage suction port and the sewage discharge port are respectively formed at the sewage suction pipe and the sewage discharge pipe, the pump body is held at an upper portion of the cleaning bucket in such a manner that the sewage suction pipe and the sewage discharge pipe are respectively located at the cleaning cavity and the sewage cavity, and the sewage suction pipe extends from the pump body to a bottom of the cleaning cavity.

4. The decontaminated pump type cleaning tank of claim 3, wherein the sewage pump further comprises a quick release mechanism, wherein the quick release mechanism comprises a first quick release and a second quick release, wherein the first quick release and the second quick release are provided to the cleaning tank and the pump body, respectively, the first quick release being detachably mounted to the second quick release such that the sewage pump is detachably mounted to the cleaning tank.

5. The dirty-pumping cleaning bucket of claim 4, wherein the first and second quick disconnect are connected in a manner selected from the group consisting of: threaded connection, snap connection, magnetic connection, and clearance fit connection.

6. The dirty-pumping cleaning bucket of any one of claims 1 to 5, further comprising at least one transparent cleaning sight window, wherein the cleaning sight window is disposed on the holding means and corresponds to the cleaning chamber, and water within the cleaning chamber is visible through the cleaning sight window.

7. The dirty-pumping cleaning bucket of any one of claims 1 to 5, further comprising a detection device, wherein the detection device is mounted to the cleaning bucket, the detection device being communicatively coupled to the dirty pump, the detection device controlling the dirty pump to remain on after the detection device detects that the mop in the cleaning chamber has left the cleaning chamber.

8. The dirty-pumping type cleaning barrel according to any one of claims 1 to 5, further comprising a water inlet control mechanism, wherein the holding device has a water inlet channel, wherein the water inlet channel is formed in a lower portion of the holding device, wherein the water inlet control mechanism is movably provided to the cleaning barrel, the water inlet control mechanism controls the cleaning barrel to switch between a circulation state and a closed state, and the water inlet channel of the cleaning barrel in the circulation state communicates with the clean water chamber and the cleaning chamber, and the clean water chamber and the cleaning chamber of the cleaning barrel in the closed state are blocked.

9. The dirt-pumping type cleaning bucket of claim 8, wherein the water inlet control mechanism includes an operating member including an operating member, an extension rod, and a movable valve, the stopper having a longitudinal fitting chamber and a lateral flow passage communicating with the longitudinal fitting chamber, the operating member and the movable valve being provided at upper and lower ends of the extension rod, respectively, the movable valve having a flow passage, the cleaning device having a holding hole, the stopper being provided to the accommodating device in such a manner that the lateral flow passage can be communicated with the water inlet passage, the operating member being held above the cleaning device in such a manner that the extension rod is rotatably mounted to the holding hole, and the movable valve being rotatably held in the longitudinal fitting chamber of the stopper.

10. A cleaning implement, comprising:

a mop; and

a pumped dirty cleaning tank, wherein the pumped dirty cleaning tank comprises a cleaning tank and at least one dirty water pump, wherein the cleaning tank comprises a holding device and a cleaning device, wherein the holding device has a clean water chamber, a clean water chamber and a dirty water chamber, wherein the cleaning device has a water inlet, a clean water chamber and a dirty water chamber, wherein the cleaning device is held above the cleaning tank in such a way that the water inlet, the clean water chamber and the dirty water chamber correspond to the clean water chamber, the clean water chamber and the dirty water chamber respectively, wherein the dirty water pump has a dirty water suction port and a dirty water discharge port, the dirty water pump is arranged to the cleaning tank in such a way that the dirty water suction port and the dirty water discharge port are respectively communicated to the clean water chamber and the dirty water chamber, and the mop is accessible from the clean water chamber of the cleaning tank.

11. The cleaning tool of claim 10, wherein the holding means comprises a holding body having a holding space, a water inlet partition and a sewage partition, wherein the water inlet partition and the sewage partition are disposed at intervals in the holding space of the holding body, and the clean water chamber is formed between the holding body and the water inlet partition, the clean water chamber is formed between the water inlet partition and the sewage partition, and the sewage chamber is formed between the holding body and the sewage partition, the sewage partition has a fitting opening formed at a bottom of the sewage partition, and the sewage pump is hermetically installed at the fitting opening in such a manner that the sewage suction opening and the sewage discharge opening are respectively communicated with the clean water chamber and the sewage suction opening.

12. The cleaning tool of claim 10, wherein the sewage pump comprises a pump body, a sewage suction pipe and a sewage discharge pipe, wherein the sewage suction pipe and the sewage discharge pipe are respectively communicated with both ends of the pump body, the sewage suction port and the sewage discharge port are respectively formed at the sewage suction pipe and the sewage discharge pipe, the pump body is held at an upper portion of the cleaning tub in such a manner that the sewage suction pipe and the sewage discharge pipe are respectively located at the cleaning chamber and the sewage chamber, and the sewage suction pipe extends from the pump body to a bottom of the cleaning chamber.

13. The cleaning implement of claim 12, wherein the sewage pump further comprises a quick release mechanism, wherein the quick release mechanism comprises a first quick release and a second quick release, wherein the first quick release and the second quick release are disposed on the cleaning bucket and the pump body, respectively, and the first quick release is detachably mounted to the second quick release.

14. The cleaning tool of claim 13, wherein the first and second quick release members are connected in a manner selected from the group consisting of: threaded connection, snap connection, magnetic connection, and clearance fit connection.

15. The cleaning tool of any one of claims 10 to 14, further comprising at least one transparent cleaning vision window, wherein the cleaning vision window is disposed in the holding device and corresponds to the cleaning chamber through which water within the cleaning chamber is visible.

16. The cleaning implement of any one of claims 10 to 14, further comprising a detection device, wherein the detection device is mounted to the cleaning bucket, the detection device being communicatively coupled to the dirty pump, the detection device controlling the dirty pump to remain on after the detection device detects that the mop within the cleaning chamber has left the cleaning chamber.

17. The cleaning implement of any one of claims 10 to 14, further comprising a water inlet control mechanism, wherein the holding device has a water inlet channel, wherein the water inlet channel is formed in a lower portion of the holding device, wherein the water inlet control mechanism is movably disposed to the cleaning bucket, the water inlet control mechanism controls the cleaning bucket to switch between a circulation state and a closed state, and the water inlet channel of the cleaning bucket in the circulation state communicates with the clean water chamber and the cleaning chamber, and the clean water chamber and the cleaning chamber of the cleaning bucket in the closed state are blocked.

18. The cleaning tool according to claim 17, wherein the water inflow control mechanism includes an operation member including an operation element, an extension rod, and a movable valve, the stopper having a longitudinal fitting chamber and a lateral flow passage communicating with the longitudinal fitting chamber, the operation element and the movable valve being provided at upper and lower ends of the extension rod, respectively, the movable valve having a flow passage, the cleaning device having a holding hole, the stopper being provided to the accommodating device in such a manner that the lateral flow passage can communicate with the water inflow passage, the operation element being held above the cleaning device in such a manner that the extension rod is rotatably mounted to the holding hole, and the movable valve being rotatably held in the longitudinal fitting chamber of the stopper.

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